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Electrochemical insights into the mechanism of NiFe membrane-bound hydrogenasesHow the structure of the large subunit controls function in an oxygen-tolerant [NiFe]-hydrogenaseAerobic damage to [FeFe]-hydrogenases: activation barriers for the chemical attachment of O2.Zymographic differentiation of [NiFe]-hydrogenases 1, 2 and 3 of Escherichia coli K-12.The uptake hydrogenase in the unicellular diazotrophic cyanobacterium Cyanothece sp. strain PCC 7822 protects nitrogenase from oxygen toxicityMaturation of Rhizobium leguminosarum hydrogenase in the presence of oxygen requires the interaction of the chaperone HypC and the scaffolding protein HupKOrientation-Controlled Electrocatalytic Efficiency of an Adsorbed Oxygen-Tolerant Hydrogenase.Models of the Ni-L and Ni-SIa States of the [NiFe]-Hydrogenase Active SiteThe Mössbauer Parameters of the Proximal Cluster of Membrane-Bound Hydrogenase Revisited: A Density Functional Theory StudyStructure, function and biosynthesis of O₂-tolerant hydrogenases.Rubredoxin-related maturation factor guarantees metal cofactor integrity during aerobic biosynthesis of membrane-bound [NiFe] hydrogenaseDual organism design cycle reveals small subunit substitutions that improve [NiFe] hydrogenase hydrogen evolution.Dissection and engineering of the Escherichia coli formate hydrogenlyase complex.Re-engineering a NiFe hydrogenase to increase the H2 production bias while maintaining native levels of O2 tolerance.An innovative cloning platform enables large-scale production and maturation of an oxygen-tolerant [NiFe]-hydrogenase from Cupriavidus necator in Escherichia coliBridging-hydride influence on the electronic structure of an [FeFe] hydrogenase active-site model complex revealed by XAES-DFT.Theoretical insights into [NiFe]-hydrogenases oxidation resulting in a slowly reactivating inactive state.Analysis of differences in oxygen sensitivity of Fe-S clusters.Experimental and DFT Investigations Reveal the Influence of the Outer Coordination Sphere on the Vibrational Spectra of Nickel-Substituted Rubredoxin, a Model Hydrogenase Enzyme.Theoretical investigation of aerobic and anaerobic oxidative inactivation of the [NiFe]-hydrogenase active site.Biosynthesis of Salmonella enterica [NiFe]-hydrogenase-5: probing the roles of system-specific accessory proteins.Improved O2-tolerance in variants of a H2-evolving [NiFe]-hydrogenase from Klebsiella oxytoca HP1.What is the trigger mechanism for the reversal of electron flow in oxygen-tolerant [NiFe] hydrogenases?
P2860
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P2860
description
article científic
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article scientifique
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articol științific
@ro
articolo scientifico
@it
artigo científico
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artigo científico
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artigo científico
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artikel ilmiah
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artikull shkencor
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artículo científico
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name
The hows and whys of aerobic H2 metabolism.
@en
The hows and whys of aerobic H2 metabolism.
@nl
type
label
The hows and whys of aerobic H2 metabolism.
@en
The hows and whys of aerobic H2 metabolism.
@nl
prefLabel
The hows and whys of aerobic H2 metabolism.
@en
The hows and whys of aerobic H2 metabolism.
@nl
P1476
The hows and whys of aerobic H2 metabolism.
@en
P356
10.1016/J.CBPA.2012.01.012
P577
2012-02-25T00:00:00Z